In a laboratory, 655 mL of CO2 st 30.0 degrees Celsius and 16.1 psi is combined
ID: 697692 • Letter: I
Question
In a laboratory, 655 mL of CO2 st 30.0 degrees Celsius and 16.1 psi is combined with 2.70 g of KO2. The two chemicals react in a reaction container at STP conditions. 4 KO2 (g) + 2 CO2 (g) ——> 3 O2 (g) + 2 K2CO3 (s)a. How many moles of CO2 are present initially before the reaction?
b. How many moles of KO2 are present initially before the reaction?
c. What is the limiting reagent in the reaction?
d. How many moles of O2 are produced?
e. What is the resulting volume of O2?
f. How many moles of CO2 are left I reacted in the container?
g. How many moles of KO2 are left I reacted in the container? In a laboratory, 655 mL of CO2 st 30.0 degrees Celsius and 16.1 psi is combined with 2.70 g of KO2. The two chemicals react in a reaction container at STP conditions. 4 KO2 (g) + 2 CO2 (g) ——> 3 O2 (g) + 2 K2CO3 (s)
a. How many moles of CO2 are present initially before the reaction?
b. How many moles of KO2 are present initially before the reaction?
c. What is the limiting reagent in the reaction?
d. How many moles of O2 are produced?
e. What is the resulting volume of O2?
f. How many moles of CO2 are left I reacted in the container?
g. How many moles of KO2 are left I reacted in the container? 4 KO2 (g) + 2 CO2 (g) ——> 3 O2 (g) + 2 K2CO3 (s)
a. How many moles of CO2 are present initially before the reaction?
b. How many moles of KO2 are present initially before the reaction?
c. What is the limiting reagent in the reaction?
d. How many moles of O2 are produced?
e. What is the resulting volume of O2?
f. How many moles of CO2 are left I reacted in the container?
g. How many moles of KO2 are left I reacted in the container?
Explanation / Answer
a)
Use ideal gas equation for calculation of mole of gas
Ideal gas equation
PV = nRT where, P = atm pressure= 16.1psi = 1.0955 atm,
V = volume in Liter = 655 ml = 0.655 L
n = number of mole = ?
R = 0.08205L atm mol-1 K-1 =Proportionality constant = gas constant,
T = Temperature in K = 00C = 273.15+ 30 = 303.15 K
We can write ideal gas equation
n = PV/RT
Substitute the value
n = (1.0955X 0.655)/(0.08205X 303.15) = 0.0288 mole
0.0288 mole of CO2 at initialy
b)molar mass of KO2 = 71.1 gm/mole then 2.70 gm of KO2 = 2.70 / 71.1 = 0.03797 mole
mole of KO2 = 0.03797 mole
c)according to reaction 4 mole KO2 react with 2 mole CO2 then to react with 0.0288 mole of CO2 required KO2 =
0.0288 X 4 / 2 = 0.0576 mole but KO2 given only 0.03797 mole therefore
KO2 is limiting reactant.
d)According to reaction 4 mole KO2 produce 3 mole of O2 then 0.03797 mole of KO2 produce O2 =
0.03797 X 3 / 4 = 0.0285 mole
0.0285 mole of O2 produced
e)
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